Water confined in non-ionic fluorocarbon reverse micelles was investigated through infrared spectroscopy. The characteristic OH stretching band is seen to exhibit significant changes upon growing water core size. An analysis in terms of three gaussians, each of which being ascribed to different water "type" molecules is performed. From a comparison with ionic systems, it is found that the presence of counterions is not a major factor in the perturbation of water connectivity, thus suggesting that the size of confinement prevails
Author Institution: Code 6111, Chemistry Division, Naval Research LaboratoryReverse micelles (RM) ar...
© 2019 American Chemical Society.Molecular-level understanding of the water structure and dynamics i...
The properties and behavior of water greatly influence biomolecular structure and function, yet many...
Water confined in non-ionic fluorocarbon reverse micelles was investigated through infrared spectros...
Water confined in nonionic fluorocarbon reverse micelles was investigated through mid-infrared spect...
The influence of nanoconfinement on water structure is studied with time- and frequency-resolved vib...
The interactions of water with the polar headgroups in the reversed micelles of sodium bis(2-ethylhe...
We present computer simulation study of two-dimensional infrared spectroscopy (2D-IR) of water confi...
A Fourier transform infrared study of the states of water included in reverse micelles made from Aer...
Nanoscopically confined water under an electric field is widely found in various fields of chemistry...
Here we perform a comprehensive study of ultrafast molecular and vibrational dynamics of water confi...
In a nonpolar solvent such as iso-octane, Aerosol OT surfactant molecules form reverse micelles that...
The microenvironment of water droplets of nonionic polyoxyethylene (4) lauryl ether reverse micelles...
Here we perform a comprehensive study of ultrafast molecular and vibrational dynamics of water confi...
We study the structure and reorientation dynamics of nanometer-sized water droplets inside nonionic ...
Author Institution: Code 6111, Chemistry Division, Naval Research LaboratoryReverse micelles (RM) ar...
© 2019 American Chemical Society.Molecular-level understanding of the water structure and dynamics i...
The properties and behavior of water greatly influence biomolecular structure and function, yet many...
Water confined in non-ionic fluorocarbon reverse micelles was investigated through infrared spectros...
Water confined in nonionic fluorocarbon reverse micelles was investigated through mid-infrared spect...
The influence of nanoconfinement on water structure is studied with time- and frequency-resolved vib...
The interactions of water with the polar headgroups in the reversed micelles of sodium bis(2-ethylhe...
We present computer simulation study of two-dimensional infrared spectroscopy (2D-IR) of water confi...
A Fourier transform infrared study of the states of water included in reverse micelles made from Aer...
Nanoscopically confined water under an electric field is widely found in various fields of chemistry...
Here we perform a comprehensive study of ultrafast molecular and vibrational dynamics of water confi...
In a nonpolar solvent such as iso-octane, Aerosol OT surfactant molecules form reverse micelles that...
The microenvironment of water droplets of nonionic polyoxyethylene (4) lauryl ether reverse micelles...
Here we perform a comprehensive study of ultrafast molecular and vibrational dynamics of water confi...
We study the structure and reorientation dynamics of nanometer-sized water droplets inside nonionic ...
Author Institution: Code 6111, Chemistry Division, Naval Research LaboratoryReverse micelles (RM) ar...
© 2019 American Chemical Society.Molecular-level understanding of the water structure and dynamics i...
The properties and behavior of water greatly influence biomolecular structure and function, yet many...